use std::env;
use std::fs;
use std::path::{Path, PathBuf};
fn main() {
println!("cargo:rerun-if-env-changed=FORCE_BINDGEN");
let generator = BindingsGenerator::new();
generator.generate_cmsis_os_bindings();
generator.generate_stm32_hal_bindings();
generator.generate_stm32_hal_statics();
}
struct BindingsGenerator {
clib_dir: PathBuf,
workspace_dir: PathBuf,
out_dir: PathBuf,
gcc_include_dir: PathBuf,
force_bindgen: bool,
}
impl BindingsGenerator {
pub fn new() -> Self {
let out_dir = env::var("OUT_DIR").unwrap();
let crate_dir = env::var("CARGO_MANIFEST_DIR").unwrap();
let workspace_dir = Path::new(&crate_dir).parent().unwrap();
let clib_dir = workspace_dir.parent().unwrap().join("target_f1");
assert!(clib_dir.is_dir());
let force_bindgen: bool = std::env::var_os("FORCE_BINDGEN").is_some();
let gcc_include_dir = detect_gcc_inclide_dir();
Self {
clib_dir: clib_dir.to_path_buf(),
workspace_dir: workspace_dir.to_path_buf(),
out_dir: Path::new(&out_dir).to_path_buf(),
gcc_include_dir,
force_bindgen,
}
}
fn builder(&self) -> bindgen::Builder {
let stm32_sdk_includes = [
"Inc",
"Drivers/STM32L4xx_HAL_Driver/Inc",
"Drivers/STM32L4xx_HAL_Driver/Inc/Legacy",
"Middlewares/Third_Party/FreeRTOS/Source/include",
"Middlewares/Third_Party/FreeRTOS/Source/CMSIS_RTOS",
"Middlewares/Third_Party/FreeRTOS/Source/portable/GCC/ARM_CM4F",
"Drivers/CMSIS/Device/ST/STM32L4xx/Include",
"Drivers/CMSIS/Include",
"Middlewares/ST/STM32_USB_Device_Library/Core/Inc",
"Middlewares/ST/STM32_USB_Device_Library/Class/CDC/Inc",
];
let stm32_sdk_includes = stm32_sdk_includes
.iter()
.map(|stm32_include| format!("{}/{}", self.clib_dir.to_string_lossy(), stm32_include));
let flipper_core_bindings = self.workspace_dir.join("flipper-core").join("bindings");
let includes = [
// This are bindings generated by cbindgen nearby
&flipper_core_bindings.to_string_lossy(),
&self.gcc_include_dir.to_string_lossy(),
];
#[rustfmt::skip]
return bindgen::Builder::default()
.use_core()
.ctypes_prefix("self")
.blacklist_type("__uint8_t")
.blacklist_type("__uint32_t")
.blacklist_type("c_int")
.blacklist_type("__int32_t")
// TODO there's no .no_debug method, to disable only for specific type
.derive_debug(false)
.clang_arg("-DUSE_HAL_DRIVER")
.clang_arg("-DSTM32L476xx")
.clang_arg("-DBUTON_INVERT=false")
.clang_arg("-DDEBUG_UART=huart1")
.clang_args(
(includes.iter().map(|x| From::from(x as &str)).chain(stm32_sdk_includes))
.map(|include| format!("-I{}", include))
)
.clang_arg("--target=thumbv7em-none-eabihf")
.clang_arg("--verbose")
//.clang_arg("-nostdinc")
;
}
pub fn generate_cmsis_os_bindings(&self) {
let result_path = self.out_dir.join("cmsis_os_bindings.rs");
let should_build = !result_path.is_file() || self.force_bindgen;
if !should_build {
return;
}
println!("cargo:warning=writing cmsis os bindings");
#[rustfmt::skip]
let builder = self.builder()
.whitelist_recursively(false)
.header(format!("{}/Middlewares/Third_Party/FreeRTOS/Source/CMSIS_RTOS/cmsis_os.h", self.clib_dir.to_string_lossy()))
.whitelist_type("osStatus")
.rustified_enum("osStatus")
.whitelist_type("osEvent")
.whitelist_type("os_pthread")
.whitelist_type("osThreadId")
.opaque_type("osThreadId")
.whitelist_type("os_thread_def")
.whitelist_type("osThreadDef_t")
.whitelist_type("osStaticThreadDef_t")
.opaque_type("osStaticThreadDef_t")
.whitelist_type("osPriority")
.rustified_enum("osPriority")
.whitelist_function("osThreadCreate")
.whitelist_function("osThreadGetId")
.whitelist_function("osThreadTerminate")
.whitelist_function("osThreadYield")
.whitelist_type("osMutexId")
.opaque_type("osMutexId")
.whitelist_type("os_mutex_def")
.whitelist_type("osMutexDef_t")
.whitelist_type("osStaticMutexDef_t")
.opaque_type("osStaticMutexDef_t")
.whitelist_function("osMutexCreate")
.whitelist_function("osMutexWait")
.whitelist_function("osMutexRelease")
.whitelist_type("osSemaphoreId")
.opaque_type("osSemaphoreId")
.whitelist_type("os_semaphore_def")
.whitelist_type("osSemaphoreDef_t")
.whitelist_type("osStaticSemaphoreDef_t")
.opaque_type("osStaticSemaphoreDef_t")
.whitelist_function("osSemaphoreCreate")
.whitelist_function("osSemaphoreWait")
.whitelist_function("osSemaphoreRelease")
.whitelist_type("osMessageQId")
.opaque_type("osMessageQId")
.whitelist_type("osMailQId")
.opaque_type("osMailQId")
.whitelist_type("os_mailQ_def")
.whitelist_type("osMailQDef_t")
.whitelist_type("os_mailQ_cb")
.whitelist_function("osMailCreate")
.whitelist_function("osMailAlloc")
.whitelist_function("osMailFree")
.whitelist_function("osMailPut")
.whitelist_function("osMailGet")
.whitelist_var("osWaitForever")
.whitelist_function("osDelay")
// TODO for some reason, bindgen wont generate osKernelSysTickFrequency
.whitelist_var("osKernelSysTickFrequency")
.whitelist_function("osKernelSysTick")
;
let bindings = builder.generate().expect("Unable to generate bindings");
bindings
.write_to_file(result_path)
.expect("Couldn't write bindings!");
}
pub fn generate_stm32_hal_bindings(&self) {
let result_path = self.out_dir.join("stm32_hal_bindings.rs");
let should_build = !result_path.is_file() || self.force_bindgen;
if !should_build {
return;
}
println!("cargo:warning=writing STM32 HAL bindings");
#[rustfmt::skip]
let builder = self.builder()
.whitelist_recursively(false)
.header(format!("{}/Drivers/STM32L4xx_HAL_Driver/Inc/stm32l4xx_hal.h", self.clib_dir.to_string_lossy()))
.whitelist_type("HAL_StatusTypeDef")
.rustified_enum("HAL_StatusTypeDef")
.whitelist_type("GPIO_TypeDef")
.opaque_type("GPIO_TypeDef")
.whitelist_type("GPIO_PinState")
.rustified_enum("GPIO_PinState")
.whitelist_function("HAL_GPIO_WritePin")
.whitelist_function("HAL_GPIO_TogglePin")
.whitelist_function("HAL_GPIO_ReadPin")
.whitelist_type("UART_HandleTypeDef")
.opaque_type("UART_HandleTypeDef")
.whitelist_function("HAL_UART_Transmit_IT")
.whitelist_type("SPI_HandleTypeDef")
.opaque_type("SPI_HandleTypeDef")
.whitelist_function("HAL_SPI_Transmit_IT")
.whitelist_function("HAL_SPI_Receive_IT")
.whitelist_function("HAL_SPI_TransmitReceive_IT")
.whitelist_type("ADC_HandleTypeDef")
.opaque_type("ADC_HandleTypeDef")
.whitelist_type("COMP_HandleTypeDef")
.opaque_type("COMP_HandleTypeDef")
.whitelist_type("DAC_HandleTypeDef")
.opaque_type("DAC_HandleTypeDef")
.whitelist_type("TIM_HandleTypeDef")
.opaque_type("TIM_HandleTypeDef")
;
let bindings = builder.generate().expect("Unable to generate bindings");
bindings
.write_to_file(result_path)
.expect("Couldn't write bindings!");
}
pub fn generate_stm32_hal_statics(&self) {
let result_path = self.out_dir.join("stm32_hal_statics.rs");
let should_build = !result_path.is_file() || self.force_bindgen;
if !should_build {
return;
}
println!("cargo:warning=writing STM32 HAL bindings");
#[rustfmt::skip]
let builder = self.builder()
.whitelist_recursively(false)
.header(format!("{}/Src/main.c", self.clib_dir.to_string_lossy()))
.whitelist_var(".*_Pin")
.whitelist_var(".*_Port")
.whitelist_var("HAL_.*_Pin")
.whitelist_var("HAL_.*_Port")
.whitelist_var("hadc[0-9]+")
.whitelist_var("hcomp[0-9]+")
.whitelist_var("hdac[0-9]+")
.whitelist_var("hspi[0-9]+")
.whitelist_var("htim[0-9]+")
.whitelist_var("huart[0-9]+")
;
let bindings = builder.generate().expect("Unable to generate bindings");
bindings
.write_to_file(result_path)
.expect("Couldn't write bindings!");
}
}
fn detect_gcc_inclide_dir() -> PathBuf {
let base_path = Path::new("/usr/lib/gcc/arm-none-eabi");
if !base_path.is_dir() {
panic!("Can't find arm-none-eabi-gcc lib directory");
}
let entries = fs::read_dir(base_path).expect("Can't read arm-none-eabi-gcc lib directory");
for entry in entries {
let entry = entry.expect("Can't read dir entry");
let path = entry.path();
if path.is_dir() {
let include_dir = path.join("include");
if include_dir.is_dir() {
return include_dir.to_path_buf();
}
}
}
panic!("Can't find arm-none-eabi-gcc include directory");
}